Background

LANDFIRE’s Biophysical Settings(BpS) tell many stories-where ecosystems were likely to occur historically, how they looked and functioned. Officially BpSs are:

“A modeled representation of the vegetation system that may have been dominant on the landscape prior to Euro-American settlement and is based on both the current biophysical environment and an approximation of modeled past disturbance regimes. LF uses BPS to depict reference conditions of vegetation across landscapes.”

In these reports we do quick summaries of the BpSs and their associated historical fire regime attributes for each National Park to:

  1. Identify the top Biophysical Settings and their extent
  2. Calculate average annual acres burned historically
  3. Explore which fire types were most prevalent (i.e., surface, mixed or replacement)

Summary

From a quick assessment of the BpSs and their historical Mean Fire Return Intervals for Grand Teton National Park we found:

  • There were 25 Biophysical Settings (by name, there may be more if counting by variants). The Rocky Mountain Subalpine Mesic-Wet Spruce-Fir Forest and Woodland was the most prevalent overall, with the Inter-Mountain Basins Montane Sagebrush Steppe having the most fire annually.
  • For the 10 most common BpSs, roughly 2,133 acres burned annually or 1% of Grand Teton National Park.
  • For the 10 most common BpSs, Mean Fire Return Intervals for all fire types combined ranged from 22 to 566 years, with an area weighted mean of 154 (weighted by acres of BpSs)


Overview chart to explore historical fire regime patterns

The ‘strip chart’ below is intended to introduce the charts that follow.

  • The colors are set by the historical Mean Fire Return Interval, with yellows indicating fewer years between fires, darker colors indicating more years between fires
  • There is one rectangle per BpS; size of rectangle proportional to acres mapped. BpSs < 1,000ac not shown.
  • Hover over rectangles to get more information.


Top 10 Biophysical Settings

Fire Return Interval and Severity by Biophysical Setting

The BpS dataset includes multiple attributes including:

  • BPS_CODE Biophysical Settings (BpS) code used by LANDFIRE
  • ZONE National Land Cover Database Map Zone the BpS relates to
  • BPS_MODEL Unique BpS model code
  • BPS_NAME BpS Name
  • FRI_REPLAC Average historic replacement fire frequency (greater than 75% top kill of vegetation)
  • FRI_MIXED Average historic mixed fire frequency
  • FRI_SURFAC Average historic surface fire frequency
  • FRI_ALL Quantifies the average period between fires (all types).

You can download the raw attribute table here and the data dictionary here.

For the charts and data table below we added some additional calculations such as annual acres burned by fire severity.

Also see below for FRI_ALL “All Fires” calculation

Mean Fire Return Inverval by Biophysical Setting

The chart below indicates the total area (in acres) per Biophysical Setting and “All Fires” Mean Fire Return Interval (years, in parentheses). Colors set to match those of the map on the home page, and of the strip chart above.



Annual Acres Burned per Biophysical Setting

The above chart depicts how much of each BpS was on the landscape. The chart below depicts modeled annual acres burned per BpS.

Fire Severity by Biophysical Setting

The chart below depicts Mean Fire Return Interval per Biophysical Setting, split out by fire severity.


Almost raw historical fire regime data table

As noted above for the charts and data table we removed some columns (e.g., color ramp), added some calculations (e.g., annual acres burned) and renamed the columns for easier work in R and for clarity. Below you can filter, sort and explore the data. In the following table:

  • ‘fri’ = fire return interval, or the mean number of years between fires
  • There are several columns that will be ‘off screen’. Look for horizontal scroll bar at the bottom of the table.
  • the “annual_probability_____” columns refer to the ‘chance’ that a location had that particular type of fire during a year on average.

LANDFIRE used the annual probabilities in the original modeling (see Blankenship et al., (2021) for more information). Below is an example of how the math works:

Example calculation of MFRI and annual acres burned for a 1,000 acre ecosystem with a 0.2 annual probability of fire:


\[ MFRI = 1/0.2 = 5ys \]